Metalloids are unlike the inner transtion metals and all other metals. They are giant molecules whose bonding could be described as covalent. However consider silicon - perhaps the most widey used metalloid- it has a structure like diamond with tetrahedral bonds- but it is a semiconductor- this is because in molecular orbital terms the antibonding orbitals are sufficiently close to the energy of the bonding orbitals (band gap -using the nomenclature of band theory) for thermal excitation into the antibonding orbitals to take place.This is an oversimplification.
Metals are located in the left hand side of the periodic table, non metals are located on the right and metalloids are located in between as a 'bridge'.
Actually, it's the other way around. Electrons of transition metals fill d-sublevels, while electrons of inner transition metals fill f-sublevels. Inner transition metals are located in the f-block of the periodic table, while transition metals are located in the d-block.
Yes, transition metals are Group B elements found in the d-block of the periodic table. Inner transition metals, on the other hand, are located in the f-block of the periodic table and consist of the lanthanides and actinides.
No, pb is the chemical symbol for lead, which is not classified as an inner transition metal. Inner transition metals are elements located in the f-block of the periodic table, such as the lanthanides and actinides. Lead is classified as a post-transition metal.
Lanthanides are called inner transition elements because they fill the 4f orbitals, which are part of the inner electron shell transition metals. These elements are also characterized by the gradual filling of the 4f subshell across the lanthanide series.
There are at least two possible answers to this question. The two most usual ones are probably: metals, nonmetals, and metalloids; or main group, transition elements, and inner transition elements.
Metals are located in the left hand side of the periodic table, non metals are located on the right and metalloids are located in between as a 'bridge'.
metals, metalloids, and non-metalsThese are roughly grouped from left to right on the periodic table. The metals are on the left, the non-metals are on the right, and the metalloids are inbetween. On many student periodic tables there is a dark, staircase-looking line that marks which elements are metalloids.
The final electron in inner transition metals typically enters the 4f or 5f orbitals. These orbitals are part of the inner electron shells and are responsible for the unique chemical properties of inner transition metals.
There are at least two possible answers to this question. The two most usual ones are probably: metals, nonmetals, and metalloids; or main group, transition elements, and inner transition elements.
The inner transition metals are radioactive and are found in the f-block. These are commonly referred to as actinoids and are alkali metals.
Yes
Actually, it's the other way around. Electrons of transition metals fill d-sublevels, while electrons of inner transition metals fill f-sublevels. Inner transition metals are located in the f-block of the periodic table, while transition metals are located in the d-block.
Metals from the d-block (by opposition with the inner transition metals).
incomplete outer shells
Yes, transition metals are Group B elements found in the d-block of the periodic table. Inner transition metals, on the other hand, are located in the f-block of the periodic table and consist of the lanthanides and actinides.
No, electrons of inner transition metals fill f-sublevels, while electrons of transition metals fill d-sublevels. Inner transition metals have their f-sublevels as part of their electron configuration, whereas transition metals have d-sublevels as part of their electron configuration.